Difference between revisions of "Archived Reports"

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[[File:reports_logo.JPG]]
 
[[File:reports_logo.JPG]]
  
[[Media:isml-no-02-2014.pdf]]
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===2020:===
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Report # ISML/01/2020 [[Media:ISML_Research_Report_no._01-2020.pdf|Does Aneurysm Biomechanical Ratio Predict Rupture or Repair in Patients with Abdominal Aortic Aneurysm?]] K. Miller, G.R. Joldes, A. Wittek
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===2019:===
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Report # ISML/01/2019 [https://{{SERVERNAME}}/ISML/Reports/An%20explicit%20meshless%20point%20collocation%20solver%20for%20incompressible%20Navier-Stokes%20equations.pdf An explicit meshless point collocation solver for incompressible Navier-Stokes equations] G. C. Bourantas
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===2018:===
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Report # ISML/01/2018 [[Media:ISML 01-2018.pdf|Investigating the relationship between AAA Wall Stress and symptoms exhibited by patients]] Tavner et al.
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===2017:===
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Report # ISML/03/2017 [[Media:WallThickness_ISML_report.pdf|Maximum Principal AAA Wall Stress is Proportional to Wall Thickness]] Miller et al.
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Report # ISML/02/2017 [[Media:Residual_stress_ISML_report.pdf|A simple and effective method of incorporating the effects of residual stress in the abdominal aortic aneurysm wall stress estimation]] Joldes et al.
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Report # ISML/01/2017 [[Media:BioPARR_ISML_report.pdf|BioPARR: A software system for estimating the rupture potential index for abdominal aortic aneurysms]] Joldes et al.
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<span style="color: red; font-weight:bold">BioPARR software can be downloaded</span> [https://bioparr.mech.uwa.edu.au '''here''']
  
 
===2014:===
 
===2014:===
  
Report # ISML/02/2014 Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation Joldes et al.
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Report # ISML/02/2014 [[Media:isml-no-02-2014.pdf|Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation]] Joldes et al.
 
   
 
   
Report # ISML/01/2014 Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface.. Agrawal et al.
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Report # ISML/01/2014 [[Media:isml-no-01-2014.pdf|Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface]] Agrawal et al.
  
2013:
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===2013:===
  
Report # ISML/03/2013, Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models. Ovidio et al.
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Report # ISML/03/2013 [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.
 
   
 
   
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.
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Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.
 
   
 
   
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.
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Report # ISML/01/2013 [[Media:isml-no-01-2013.pdf|Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration]] Mostayed et al.
  
2011:
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===2011:===
  
Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.
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Report # ISML/03/2011 [[Media:isml-cutting.pdf|Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery]] Jin et al.
 
   
 
   
Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.
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Report # ISML/02/2011 [[Media:Report-N-ISML-Page-PDF-STAPP-paper-11S-13.pdf|Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage]] Jin et al.
  
 
   
 
   
Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint
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Report # ISML/01/2011 [[Media:Stable_Time_Step_Estimates.pdf|Stable time steps for mesh-free particle methods]] Joldes et al. (2011) IJNME preprint
  
2009:
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===2009:===
  
Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation”
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Report # ISML/03/2009, June 2009. [[Media:isml_no_03_2009.pdf|Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation]] Authors: Grand Joldes, Adam Wittek, Karol Miller
Authors: Grand Joldes, Adam Wittek, Karol Miller
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Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom”
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Report # ISML/02/2009, February 2009. [[Media:isml_no_02_2009.pdf|Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom]] Authors: Jiajie Ma, Adam Wittek, Karol Miller
Authors: Jiajie Ma, Adam Wittek, Karol Miller
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Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”
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Report # ISML/01/2009, February 2009. [[Media:isml_no_01_2009.pdf|Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases]] Authors: Adam Wittek, Grand Joldes, Karol Miller
  
2007:
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===2007:===
  
Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”
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Report # ISML/02/2007, July 2007. [[Media:isml-no-02-2007.pdf|Mathematical Methods for Computational Soft Tissue Medical Imaging]]
  
Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"
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Report # ISML/01/2007, June 2007. [[Media:isml-no-01-2007.pdf|Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II]]
  
2006:
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===2006:===
  
Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR
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Report # ISML/01/2006, February 2006. [[Media:isml-no-01-2006.pdf|Mathematical Models of Brain Deformation Behaviour for Computer-Integrated Neurosurgery]]
COMPUTER-INTEGRATED NEUROSURGERY"
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Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"
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Report # ISML/02/2006, May 2006. [[Media:isml-no-02-2006.pdf|Mesh Free Methods for Soft Tissue Deformation in Computer Integrated Surgery]]
  
Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"
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Report # ISML/03/2006, June 2006. [[Media:isml-no-03-2006.pdf|Initial Investigative Report on Normal Pressure Hydrocephalus]]

Latest revision as of 10:07, 29 May 2020


Reports logo.JPG

2020:

Report # ISML/01/2020 Does Aneurysm Biomechanical Ratio Predict Rupture or Repair in Patients with Abdominal Aortic Aneurysm? K. Miller, G.R. Joldes, A. Wittek

2019:

Report # ISML/01/2019 An explicit meshless point collocation solver for incompressible Navier-Stokes equations G. C. Bourantas

2018:

Report # ISML/01/2018 Investigating the relationship between AAA Wall Stress and symptoms exhibited by patients Tavner et al.

2017:

Report # ISML/03/2017 Maximum Principal AAA Wall Stress is Proportional to Wall Thickness Miller et al.

Report # ISML/02/2017 A simple and effective method of incorporating the effects of residual stress in the abdominal aortic aneurysm wall stress estimation Joldes et al.

Report # ISML/01/2017 BioPARR: A software system for estimating the rupture potential index for abdominal aortic aneurysms Joldes et al. BioPARR software can be downloaded here

2014:

Report # ISML/02/2014 Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation Joldes et al.

Report # ISML/01/2014 Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface Agrawal et al.

2013:

Report # ISML/03/2013 Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models Ovidio et al.

Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift Roy et al.

Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration Mostayed et al.

2011:

Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery Jin et al.

Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage Jin et al.


Report # ISML/01/2011 Stable time steps for mesh-free particle methods Joldes et al. (2011) IJNME preprint

2009:

Report # ISML/03/2009, June 2009. Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation Authors: Grand Joldes, Adam Wittek, Karol Miller

Report # ISML/02/2009, February 2009. Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom Authors: Jiajie Ma, Adam Wittek, Karol Miller

Report # ISML/01/2009, February 2009. Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases Authors: Adam Wittek, Grand Joldes, Karol Miller

2007:

Report # ISML/02/2007, July 2007. Mathematical Methods for Computational Soft Tissue Medical Imaging

Report # ISML/01/2007, June 2007. Mesh Free Methods of Soft Tissue Deformation in Computer Integrated Surgery II

2006:

Report # ISML/01/2006, February 2006. Mathematical Models of Brain Deformation Behaviour for Computer-Integrated Neurosurgery

Report # ISML/02/2006, May 2006. Mesh Free Methods for Soft Tissue Deformation in Computer Integrated Surgery

Report # ISML/03/2006, June 2006. Initial Investigative Report on Normal Pressure Hydrocephalus